119 lines
3.4 KiB
Go
119 lines
3.4 KiB
Go
package config
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import (
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"testing"
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"github.com/holoplot/go-evdev"
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"github.com/stretchr/testify/suite"
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)
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type DevicesConfigTests struct {
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suite.Suite
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}
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func TestRunnerDevicesConfig(t *testing.T) {
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suite.Run(t, new(DevicesConfigTests))
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}
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func (t *DevicesConfigTests) TestMakeButtons() {
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t.Run("Maximum buttons", func() {
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buttons := makeButtons(VirtualDeviceMaxButtons, []string{})
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t.Equal(VirtualDeviceMaxButtons, len(buttons))
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})
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t.Run("Truncated buttons", func() {
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buttons := makeButtons(VirtualDeviceMaxButtons+1, []string{})
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t.Equal(VirtualDeviceMaxButtons, len(buttons))
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})
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t.Run("16 buttons", func() {
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buttons := makeButtons(16, []string{})
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t.Equal(16, len(buttons))
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t.Contains(buttons, evdev.EvCode(evdev.BTN_DEAD))
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t.NotContains(buttons, evdev.EvCode(evdev.BTN_TRIGGER_HAPPY))
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})
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t.Run("Explicit buttons", func() {
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buttonConfig := []string{"BTN_THUMB", "top", "btn_top2", "0x2fe", "0x300", "15"}
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buttons := makeButtons(0, buttonConfig)
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t.Equal(len(buttonConfig), len(buttons))
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t.Contains(buttons, evdev.EvCode(0x2fe))
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t.Contains(buttons, evdev.EvCode(0x300))
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t.Contains(buttons, evdev.EvCode(evdev.BTN_TOP))
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t.Contains(buttons, evdev.EvCode(evdev.BTN_DEAD))
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})
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}
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func (t *DevicesConfigTests) TestMakeAxes() {
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t.Run("8 axes", func() {
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axes := makeAxes(8, []string{})
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t.Equal(8, len(axes))
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t.Contains(axes, evdev.EvCode(evdev.ABS_X))
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t.Contains(axes, evdev.EvCode(evdev.ABS_Y))
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t.Contains(axes, evdev.EvCode(evdev.ABS_Z))
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t.Contains(axes, evdev.EvCode(evdev.ABS_RX))
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t.Contains(axes, evdev.EvCode(evdev.ABS_RY))
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t.Contains(axes, evdev.EvCode(evdev.ABS_RZ))
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t.Contains(axes, evdev.EvCode(evdev.ABS_THROTTLE))
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t.Contains(axes, evdev.EvCode(evdev.ABS_RUDDER))
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})
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t.Run("9 axes is truncated", func() {
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axes := makeAxes(9, []string{})
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t.Equal(8, len(axes))
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})
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t.Run("3 axes", func() {
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axes := makeAxes(3, []string{})
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t.Equal(3, len(axes))
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t.Contains(axes, evdev.EvCode(evdev.ABS_X))
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t.Contains(axes, evdev.EvCode(evdev.ABS_Y))
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t.Contains(axes, evdev.EvCode(evdev.ABS_Z))
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})
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t.Run("4 explicit axis", func() {
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axes := makeAxes(0, []string{"x", "y", "throttle", "rudder"})
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t.Equal(4, len(axes))
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t.Contains(axes, evdev.EvCode(evdev.ABS_X))
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t.Contains(axes, evdev.EvCode(evdev.ABS_Y))
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t.Contains(axes, evdev.EvCode(evdev.ABS_THROTTLE))
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t.Contains(axes, evdev.EvCode(evdev.ABS_RUDDER))
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})
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}
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func (t *DevicesConfigTests) TestMakeRelativeAxes() {
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t.Run("10 axes", func() {
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axes := makeRelativeAxes(10, []string{})
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t.Equal(10, len(axes))
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t.Contains(axes, evdev.EvCode(evdev.REL_X))
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t.Contains(axes, evdev.EvCode(evdev.REL_MISC))
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})
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t.Run("11 axes", func() {
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axes := makeRelativeAxes(11, []string{})
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t.Equal(10, len(axes))
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})
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t.Run("3 axes", func() {
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axes := makeRelativeAxes(3, []string{})
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t.Equal(3, len(axes))
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t.Contains(axes, evdev.EvCode(evdev.REL_X))
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t.Contains(axes, evdev.EvCode(evdev.REL_Y))
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t.Contains(axes, evdev.EvCode(evdev.REL_Z))
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})
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t.Run("1 explicit axis", func() {
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axes := makeRelativeAxes(0, []string{"wheel"})
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t.Equal(1, len(axes))
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t.Contains(axes, evdev.EvCode(evdev.REL_WHEEL))
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})
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t.Run("4 explicit axis", func() {
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axes := makeRelativeAxes(0, []string{"x", "y", "wheel", "hwheel"})
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t.Equal(4, len(axes))
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t.Contains(axes, evdev.EvCode(evdev.REL_X))
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t.Contains(axes, evdev.EvCode(evdev.REL_Y))
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t.Contains(axes, evdev.EvCode(evdev.REL_WHEEL))
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t.Contains(axes, evdev.EvCode(evdev.REL_HWHEEL))
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})
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}
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